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Creative Data Solutions (CDS) is a Vanderbilt Shared Resource and has extensive experience in providing effective and robust solutions to challenges pertaining to research data using modern informatics and bioinformatics approaches.

We investigated structural and functional properties of bovine cytochrome P450 steroid 21-hydroxylase (P450c21), which catalyzes hydroxylation at C-21 of progesterone and 17alpha-hydroxyprogesterone. The uncoupled H(2)O(2) formation was higher in the hydroxylation of progesterone (26% of NADPH consumed) than that of 17alpha-hydroxyprogesterone (15% of NADPH consumed), indicating that 17alpha-hydroxyprogesterone can better facilitate the O-O bond scission. In relation to this, it is noted that the O-O stretching mode (nu(O-O)) of the oxygen complex of P450c21 was sensitive to the substrate; the progesterone- or 17alpha-hydroxyprogesterone-bound enzyme gave single (at 1137 cm(-1)) or split nu(O-O) bands (at 1124 and 1138 cm(-1)), respectively, demonstrating the presence of two forms for the latter. In contrast to nu(O-O), no corresponding difference was observed for the Fe-O(2) stretching mode between two different substrate-bound forms. The Fe-S(Cys) stretching mode in the ferric state was also identical (349 cm(-1)) for each substrate-bound form, suggesting that modulation through the axial thiolate by the substrate is unlikely. Therefore, it is deduced that the hydroxyl group at C-17 of 17alpha-hydroxyprogesterone forms a hydrogen bond with the terminal oxygen atom of the FeOO complex in one form, yielding a lower nu(O-O) frequency with higher reactivity for O-O cleavage, whereas the other form in which the substrate does not provide a hydrogen bond to the oxygen ligand is essentially the same between the two kinds of substrates. In the hydrogen-bonded species, the substrate changes the geometry of the FeOO moiety, thereby performing the hydroxylation reaction more effectively in 17alpha-hydroxyprogesterone than in progesterone.